A device for needle biopsy is provided. The device includes a handle member having proximal and distal portions. A proximal handle member is disposed to the proximal portion of the handle member and a distal handle member is disposed to the distal portion of the handle member. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. A needle housing member is partially disposed to the proximal portion of the handle member and a needle is disposed within the sheath lumen. A plurality of protrusions are disposed upon the needle.

Patent
   10076316
Priority
Oct 01 2008
Filed
Nov 17 2015
Issued
Sep 18 2018
Expiry
Oct 01 2028
Assg.orig
Entity
Large
0
793
currently ok
1. A device for needle biopsy, comprising:
a handle member having proximal and distal portions;
a proximal handle member disposed to the proximal portion of the handle member, the proximal handle member including at least one adaptation member;
a distal handle member disposed to the distal portion of the handle member;
a sheath lumen disposed within the handle member and extending from the distal portion of the handle member;
a needle housing member partially disposed to the proximal portion of the handle member, wherein a longitudinal axis of the needle housing member is aligned with a longitudinal axis of the handle member, wherein the needle housing member includes at least one indentation and detaches from the proximal handle member by moving in a substantially transverse direction relative to the longitudinal axis of the handle member, thereby causing the at least one indentation to disengage from the at least one adaptation member, and wherein the needle housing member is reinsertable into the proximal portion of the handle member; and
a needle disposed within the sheath lumen.
2. The device of claim 1, further comprising a strain relief member, wherein the strain relief member provides a rigid transition between the at least one adaptation member and the needle to reduce deformation of the needle during removal from the proximal handle member.
3. The device of claim 1, wherein at least a portion of the needle includes materials or design features to enhance echogenicity and ultrasonic visibility.
4. The device of claim 1, wherein the needle further includes a stylet disposed therein.

This application is a divisional of U.S. patent application Ser. No. 12/243,367, filed Oct. 1, 2008, the content of which is incorporated herein by reference in its entirety.

1. Technical Field

The present disclosure generally relates to the biopsy devices, and more particularly, needle biopsy devices for collecting tissue, fluid, and cell samples in conjunction with procedures such as endoscopic ultrasound or endoscopic bronchial ultrasound.

2. Background of the Invention

Endoscopic ultrasounds have been used for more than twenty five years within the field of medicine. These procedures allow clinicians to scan, locate and identify individual layers of the gastrointestinal (GI) tract and determine the location of individual mucosal and submucosal layers. As a result, appropriate therapeutic modes of treatment for malignancies and various abnormalities may be determined.

An endoscopic ultrasound procedure consist of several steps. First, a clinician sedates a patient and inserts a probe via esophagogastroduodenoscopy into the patient's stomach and duodenum. Second, an endoscope is passed through the patient's mouth and advanced to the level of the duodenum. Third, from various positions between the esophagus and duodenum, organs or masses outside the gastrointestinal tract are imaged to determine abnormalities. Fourth, organs or masses can be biopsed through the process of “fine needle aspiration” (FNA) if any abnormalities are present.

Endoscopic ultrasounds and endoscopic bronchial ultrasounds through fine needle aspiration are presently the standard modes of treatment in the field of gastrointestinal endoscopy and bronchoscopy. These procedures traditionally result in high yields of sensitivity and specificity in the management of indications of diseases such as esophageal cancer, pancreatic cancer, liver mass, non-small cell lung cancer, pancreatic mass, endobronchial mass, and intra-abdominal lymph nodes.

An endoscopic ultrasound through fine needle aspiration requires a device that is attached to the luer port or working channel of a typical echoendoscope. Prior art devices utilize a series of push and pull handles to control the axial movement of the catheter shaft of the device and the depth of needle penetration. These devices, however, suffer from several drawbacks.

First, the means of attaching a device to an echoendoscope is cumbersome. For example, these devices presently utilize male fitting adapters that must be screwed onto a female luer port of an endoscope. Second, prior art devices provide sub-optimal ergonomics of use. More specifically, a clinician must actuate a number of handles independently and lock respective handles in position via cap screw arrangement to secure the device. The cumulative actions required by a clinician result in significantly drawn out procedures. Third, needles commonly kink or deform during removal from a device causing numerous delays and failures. Fourth, multiple passes per procedure are required, which prolong the procedure and result in a clinician needing to reconfirm the location of a needle relative to a desired aspiration site with each new pass.

Additionally, prior art devices are not designed to individually accommodate needles of various diameters. Specifically, a device must be removed from an endoscope during a procedure if a clinician chooses to utilize multiple needle sizes. For example, a clinician may begin an endoscopic ultrasound procedure with: 1) a device having a needle with a diameter of 19 AWG; 2.) aspirate; 3.) remove the needle housing member from the device; 4.) remove the device from the endoscope; 5.) attach a new device to the endoscope and insert a needle having a diameter of 22 AWG; and 6.) track the needle through the device's sheath lumen and continue the procedure. In this instance, absent removing the device from an endoscope, the difference in the clearance between the inner diameter of the sheath and the outer diameter of the needle will increase when moving from a large needle to a smaller needle. As a result, instability in the ability of the needle to puncture a desired lesion or cyst can result causing increased manipulation time for the clinician and loss of procedural efficiency.

Therefore, a need exists for an improved device for use in endoscopic ultrasound procedures.

Accordingly, a device for needle biopsy is provided for collecting tissue, fluid, and cell samples in conjunction with procedures such as an endoscopic ultrasound or endoscopic bronchial ultrasound.

In a first aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. Additionally, a needle housing member is partially disposed to the proximal portion of the handle member. A needle is also disposed within the sheath lumen and a plurality of protrusions are disposed thereon.

In one embodiment, a plurality of protrusions can be distributed along the length of the needle. Alternatively, the plurality of protrusions may be located at a consistent increment over the length of the needle. Additionally, the protrusions can be distributed on at least a portion of the length of the needle.

In another embodiment, at least a portion of the needle can include a tapered region for increasing the overall dimension of the needle. The tapered region and the sheath lumen may provide interference for creating stability for the needle as it passes through the sheath lumen. The interference can be a drag force creating frictional resistance between an outer diameter of the needle and an inner diameter of the sheath lumen. In another embodiment, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a second aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. Additionally, a needle housing member is partially disposed to the proximal portion of the handle member. Furthermore, a needle is disposed within the sheath lumen and at least a portion of the needle is surrounded by a polymer.

In one embodiment, a polymer may be comprised of lubricous materials. The polymer may also increase the overall dimension of the needle to create stability for the needle as it passes through the sheath lumen. In another embodiment, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a third aspect, a device for needle biopsy comprises a handle member having proximal, distal, and stop portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. The proximal handle member is configured for slideable engagement to the proximal portion of the handle member and includes a friction member. The friction member engages at least one indentation of a first series of indentations along the proximal portion of the handle member to limit slideable movement. The distal handle member is configured for slideable engagement to the distal portion of the handle member and includes friction members. The friction members engages at least one indentation of a second series of indentations along the distal portion of the handle member to limit slideable movement. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. A needle housing member is partially disposed to the proximal portion of the handle member and includes a needle that is disposed within the sheath lumen.

In one embodiment, at least one indentation of the first series of indentations may represent the length by which the needle extends beyond a distal portion of the sheath member. Additionally, at least one indentation of the second series of indentations may represent the length by which the sheath member extends beyond the distal portion of the distal handle member.

In another embodiment, a stop portion of the handle member is disposed between the proximal and distal handle members. The stop portion can prevent axial movement of the proximal handle member into the distal handle member and axial movement of the distal handle member into the proximal handle member.

In another embodiment, friction members may include a male indentation having a mating end configured to engage to a female indentation. The friction member may also include a female indentation having a mating end configured to engage to a male indentation. In another embodiment, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a fourth aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. The distal handle member includes a connector having a release member that connects axially to a medical device and engages and disengages to a channel port of the medical device. Additionally, a sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. Furthermore, a needle housing member is partially disposed to the proximal portion of the handle member and includes a needle that is disposed within the sheath lumen.

In one embodiment, a channel port may be a luer port of the medical device. In another embodiment, a connector may include at least two adaptations to connect to the medical device. The two adaptations may also connect relative to the longitudinal axis of the medical device. In another embodiment, the connector is disposed to the distal portion of the distal handle member. The release member may also be depressible. In another embodiment, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a fifth aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. The proximal handle member includes at least one adaptation member. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. A needle housing member is partially disposed to the proximal portion of the handle member that is movable in a substantially transverse direction relative to the longitudinal axis of the handle member. The needle housing member includes a needle that is disposed within the sheath lumen and a strain relief member.

In one embodiment, a needle housing member may include at least one indentation for engaging to at least one adaptation member. In another embodiment, a needle housing member can detach from the proximal handle member by moving the needle housing member in the substantially transverse direction. This movement can cause at least one indentation to disengage from at least one adaptation member.

In another embodiment, the proximal handle member can include a release member that engages and disengages the needle housing member. Additionally, the release member may also be depressible. In other embodiments, the strain relief member may provide a semi-flexible transition between at least one adaptation member and the needle to reduce deformation of the needle during removal from the proximal handle member. In another embodiment, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a sixth aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. A needle housing member is partially disposed to the proximal portion of the handle member that is movable in a substantially transverse direction relative to the longitudinal axis of the handle member. A needle having a plurality of protrusions disposed thereon is disposed within the sheath lumen.

In one embodiment, a plurality of protrusions may be distributed along the length of the needle. The plurality of protrusions may also be located at a consistent increment over the length of the needle. Additionally, the protrusions may be distributed on at least a portion of the length of the needle.

In another embodiment, at least a portion of the needle can include a tapered region for increasing the overall dimension of the needle. The tapered region and the sheath lumen can provide interference for creating stability for the needle as it passes through the sheath lumen. This interference may be a drag force creating frictional resistance between an outer diameter of the needle and an inner diameter of the sheath lumen.

In another embodiment, a needle housing member can include at least one indentation for engaging to at least one adaptation member. The needle housing member can detach from the proximal handle member by moving the needle housing member in a substantially transverse direction, thereby causing at least one indentation to disengage from at least one adaptation. The proximal handle member may also include a release member that engages and disengages the needle housing member. Additionally, the release member may be depressible. In another embodiment, a strain relief member reduces a drag force between the needle and sheath lumen as the needle is removed from the sheath lumen. In other embodiments, at least a portion of the needle may also include materials or design features to enhance echogenicity and ultrasonic visibility. In a further embodiment, a stylet is disposed within the needle.

In a seventh aspect, a device for needle biopsy comprises a handle member having proximal and distal portions, a proximal handle member disposed to the proximal portion of the handle member, and a distal handle member disposed to the distal portion of the handle member. The proximal handle member is configured for slideable engagement to the proximal portion of the handle member and includes a friction member. The friction member engages at least one indentation of a first series of indentations along the proximal portion of the handle member to limit slideable movement. The distal handle member is configured for slideable engagement to the distal portion of the handle member and includes a friction member. The friction member engages at least one indentation of a second series of indentations along the distal portion of the handle member to limit slideable movement. A sheath lumen is disposed within the handle member and extends from the distal portion of the handle member. A needle housing member is partially disposed to the proximal portion of the handle member. A needle including a plurality of protrusions disposed thereon is disposed within the sheath lumen. At least a portion of the needle is surrounded by a polymer.

The objects and features of the present disclosure, which are believed to be novel, are set forth with particularity in the appended claims. The present disclosure, both as to its organization and manner of operation, together with further objectives and advantages, may be best understood by reference to the following description, taken in connection with the accompanying drawings as set forth below:

FIG. 1 is a perspective view of a needle biopsy device;

FIG. 2 is a perspective view of a handle member;

FIG. 3 is a cross-sectional view of a proximal portion of a handle member;

FIG. 4 is a cross-sectional view of a proximal portion of a handle member and a proximal handle member;

FIG. 5 is a cross-sectional view of an assembled proximal portion of a needle biopsy device;

FIG. 6 is a partial cross-sectional view of an assembled distal portion of a needle biopsy device;

FIG. 7 is a perspective view of an assembled distal portion of a needle biopsy device;

FIG. 8 is a cross-sectional view of a connector according to another embodiment of the invention;

FIG. 9 is a perspective view of a connector according to another embodiment of the invention;

FIG. 10 is a cross-sectional view of a connector according to another embodiment of the invention;

FIG. 11 is a partial cross-sectional view of a disassembled distal portion of the invention;

FIG. 12 is a perspective view of a needle housing member;

FIG. 13 is a perspective view of a needle housing member according to another embodiment of the invention;

FIG. 14 is a perspective view of a needle housing member according to another embodiment of the invention;

FIG. 15 is a perspective view of a needle housing member according to another embodiment of the invention;

FIG. 16 is a cross-sectional view of a needle housing member according to another embodiment of the invention;

FIG. 17 is a perspective view of a sheath lumen;

FIG. 18 is a cross-sectional view of a needle according to another embodiment of the invention;

FIG. 19 is a cross-sectional view of a needle according to another embodiment of the invention;

FIG. 20 is a cross-sectional view of a needle according to another embodiment of the invention; and

FIG. 21 is a cross-sectional view of a needle according to another embodiment of the invention.

The exemplary embodiments of the needle biopsy device and methods of operation disclosed are discussed in terms of needle biopsy devices for collecting tissue, fluid, and cell samples from a body in conjunction with an endoscopic ultrasound or endoscopic bronchial ultrasound. It is envisioned that the present disclosure, however, finds application to a wide variety of biopsy devices for the collection of samples from a subject. It is also envisioned that the present disclosure may be employed for collection of body fluids including those employed during procedures relating to phlebotomy, digestive, intestinal, urinary, veterinary, etc. It is contemplated that the needle biopsy device may be utilized with other needle biopsy applications including, but not limited to, fluid collection, catheters, catheter introducers, spinal and epidural biopsy, aphaeresis, dialysis, etc.

In the discussion that follows, the term “proximal” refers to a portion of a structure that is closer to a clinician, and the term “distal” refers to a portion that is further from the clinician. According to the present disclosure, the term “clinician” refers to an individual performing sample collection, installing or removing a needle from a needle biopsy device, and may include support personnel. Reference will now be made in detail to exemplary embodiments of the disclosure, which are illustrated in the accompanying figures.

Referring to FIG. 1, a needle biopsy device 10 is provided for fine needle aspiration during procedures such as endoscopic ultrasound. The device 10 is generally comprised of a handle 12, a proximal handle member 14, a distal handle member 16, a sheath lumen 18, a needle housing member 20, a stylet 21, a needle 22, and a connector 24.

In one embodiment, a clinician connects the device 10 to another medical device via the connector 24. The clinician subsequently inserts the needle housing member 20, which includes the stylet 21 and the needle 22, into the proximal portion of the proximal handle member 14. The stylet 21 may be, but is not limited to, a removable coaxial thin wire which is passed within the lumen of the needle 22. It is envisioned that the stylet 21 may provide rigidity and stability to the needle 22. Additionally, it is contemplated that the stylet 21 can protect the needle 22 from damage or inadvertent collection of samples.

Upon passing the needle 22 through the sheath lumen 18, the clinician may slideably manipulate the proximal handle member 14 and the distal handle member 16 along the axis of the handle 12. At this juncture, the clinician may lock the proximal handle member 14 and the distal handle member 16 at various depths along the handle 12. Movement of the proximal handle member 14 causes the needle 22 to extend from the distal portion of the sheath 18. Additionally, movement of the distal handle member 16 adjusts the depth of exposure of the sheath 18. A clinician may subsequently withdraw the stylet 21 from the needle housing member 20 and begin needle aspiration.

Referring to FIG. 2, the handle 12 includes a proximal portion 26, a distal portion 30, and a stop portion 28. The handle 12 may be monolithically formed and injection molded from a rigid polymer such as acrylonitrile butadiene styrene, polystyrene, polyetherkeytone, polyamide, polyethersulfone, polyurethane, ether block amide copolymers, polyacetal, and derivatives thereof. It is contemplated that the handle 12 can be integrally assembled of multiple sections and may be substantially transparent, opaque, etc. The handle 12 may also be variously configured and dimensioned such as, for example, rectangular, spherical, tapered etc.

The handle 12 can be joined by any appropriate process such as, for example, snap fit, adhesive, solvent weld, thermal weld, ultrasonic weld, screw, rivet, etc. In this configuration, the handle 12 is presented wherein the proximal portion 26, the distal portion 30, and the stop portion 28 are joined through a snap fit process. In one embodiment, the handle 12 is assembled by inserting the stop portion 28 into the proximal portion 26, and subsequently inserting the distal portion 30 into the stop portion 28. The stop portion 28 is disposed between the proximal portion 26 and the distal portion 30 to prevent axial movement of the proximal 14 and distal 16 handle members, as shown in FIG. 1, into one another.

The stop portion 28 takes the form of a circular ring with details 34 that are incorporated into the molding. The details 34 facilitate the insertion of the stop portion 28 into proximal portion 26 and the distal portion 30 of the handle 12. It is envisioned that the details 34 may create a permanent binding between the proximal portion 26, the stop portion 28, and the distal portion 30.

Referring to FIG. 3, an alternative embodiment is presented wherein the details 36 consist of a male and female mating configuration. The details 36 consists of a raised circular male ridge that fits into a female type depression 38 in the proximal portion of a handle 40. It is envisioned that an identical configuration can exist between the details 36 and the distal portion (not shown in Figure) of the handle 40. A configuration is further contemplated wherein a stop portion 42 includes details 36 that are female type depressions and the proximal and distal portions of the handle 40 includes a raised circular male ridge.

Turning to FIG. 4, a proximal portion of a handle 46 is presented wherein a proximal handle member 44 is disposed thereon. The handle 46 includes indentations 48 to facilitate slideable engagement along the axis of the handle 46. The indentations 48 may take the form of ribs, ridges, or other forms of detents. In a preferred embodiment, the indentations 48 are located at approximately one centimeter intervals along the handle 46.

In this configuration, the proximal handle member 44 incorporates a detail member 50. The detail member 50 provides a means for the proximal handle member 44 to engage the indentations 48. As previously presented in FIG. 3, the detail member 50 similarly include a male mating configuration to facilitate a snap fit engagement process. The detail member 50 includes a male ridge member 52, which fits into a female depression 54 and can form a permanent bond therebetween.

The detail member 50 includes friction members 56, which facilitate engagement with at least one indentation 48 of a first series of indentations 48 along the proximal portion of the handle 46. A frictional drag force is created between the friction members 56 engaging at least one indentation 48 of a first series of indentations 48. It is contemplated that the proximal handle member 44 and the detail member 50 may be joined via alternative processes such as adhesive, solvent weld, thermal weld, ultrasonic weld, etc.

The friction members 56 may be, but are not limited to, protrusions such as semi-circular barbs. In a preferred embodiment, the friction members 56 engage at least one indentation 48 of a first series of indentations 48 and provide a clinician with a definitive depth measurement of the proximal handle member 44. Additionally, the friction members 56 serves to securely lock the proximal handle member 44 in place to provide a clinician with a consistent point of reference. It is contemplated that multiple friction members 56 may be employed. It is further contemplated that friction members 56 may have flexible portions, which may be of varying flexibility according to the particular requirements of the handle 46.

Referring to FIG. 5, a proximal portion of a fully assembled handle 64 is presented wherein a proximal handle member 60 can slideably advance a needle 66 within a sheath 68. In this configuration, friction members 58 are disposed to a distal portion of the proximal handle member 60 as semi-circular barbs. As presented, the friction member 58 allow the proximal handle member 60 to engage indentations 62 at any of a plurality of positions along the axis of the handle member 64. It is contemplated that each of indentation 62 can represent a specific length by which the needle 66 extends relative to the sheath 68. More specifically, in an engaged position, a clinician can set a maximum length by which the needle 66 can extend beyond the distal end of the sheath 68. A clinician may easily manipulate the position of the needle 66 by applying pressure to the distal portion of the proximal handle member 60. It is envisioned that an excessive level of pressure is not required to move the proximal handle member. However, such pressure must be sufficient to overcome the frictional resistance created between the friction member 58 and at least one indentation 62.

Referring to FIGS. 6-7, a distal handle member 70 is presented that is identical to the proximal handle member as described in FIG. 5. The distal handle member 70 includes friction members 71, which facilitate engagement with at least one indentation 73 of a second series of indentations 73 along the distal portion of a handle 74. A frictional drag force is created between the friction members 71, which engage at least one indentation 73 of a second series of indentations 73 along the handle 74.

The proximal handle member (not shown in Figure) and the distal handle member 70 further include a structural adaptation 72 that facilitates seamless movement along the handle 74. In the present configuration, the structural adaptation 72 has a larger outer diameter than other portions of the distal handle member 70. Additionally, the structural adaptation 72 is ergonomically configured to serve as a resting position for a finger or thumb of a clinician. It is contemplated that the structural adaptation 72 may provide a surface that facilitates movement of the distal handle member 70 along the handle 74. It is envisioned that the surface may be comprised of materials such as a rubber or other polymeric materials. The structural adaptation 72 may also provide a clinician with a tactile feel measurement system for gauging the position of the sheath 76 relative to the handle 74.

The distal handle member 70 also provides a means for engaging the needle biopsy device to another medical device. Referring to FIG. 7, the distal handle member 70 provides a connector 78 to facilitate attachment of the device to another medical device. The connector 78 is structurally capable of interacting with a connector on another medical device such as a channel or luer port. This interaction between the connector 78 and a connector on another medical device (not shown in Figure) can be, but is not limited to, a mating or locking connection.

Referring to FIG. 8, an alternative embodiment of a connector 78 is shown. The connector 78 provides a mechanism for the quick connect and disconnect of a needle biopsy device 80 from a channel port 82 of a medical device 84. The connector 78 includes an adaptation that provides for connection relative to the longitudinal axis of the medical device. It is contemplated that the adaptation may be a female mating configuration and may further provide for a side loading removal motion of the device 80 from the channel port 82. It is further contemplated that the connector 78 is sized such that the device 80 is securely locked onto the channel port 82 in both an axial and perpendicular direction.

Referring to FIG. 9, another embodiment of a quick connect connector 86 is shown. The connector 86 includes two adaptations 88 that provide for connection relative to the longitudinal axis of the medical device. It is envisioned that the two adaptations 88 may represent a male mating configuration engaging a female mating channel port of another medical device. It is further envisioned that the two adaptations provide a secure connection to the medical device.

Referring to FIG. 10, another embodiment of a connector 90 is shown. The connector 90 is a spring loaded mechanism which facilitates connection to other medical devices with different channel ports. In the present configuration, a clinician can quickly load a device 96 axially onto a channel port 98 of another medical device 100. A button 92 is provided to work in concert with a spring 94 to provide a spring loaded tension between the device 96 and another medical device 100. The button 92 may also be depressed to release the spring loading tension and disengage the device 96. It is contemplated that the button 92 may be situated in a position to allow the clinician to utilize their thumb or finger to depress the button 92 without disturbing the desired configuration of the device 96.

Referring to FIG. 11, a distal portion of a handle 102 is presented wherein a connector 104 is joined via a snap fit process. It is contemplated that the connector 104 may utilize a snap fit detail 106, which can be a male mating configuration that engages a female mating configuration 108. In one embodiment, the snap fit detail 106 is permanently locked to the female mating member 108. It is further contemplated that the connector 104 may be adaptations in the form of two protruding male mating adaptations, a female mating adaptation, a spring loading mechanism, etc to satisfy the need for a quick connection mechanism.

Referring to FIGS. 1, 4, and 11, the needle biopsy device may also be assembled by engaging the connector 104 to the distal handle member 110, and subsequently attaching the distal handle member 110 to a stop portion 112. The stop portion 112 may be attached to the handle 46, as shown in FIG. 4, to complete the assembly of the handle 12, as shown in FIG. 1.

Turning to FIGS. 12 and 13, assembly of the needle biopsy device may be completed by inserting a needle housing member 114 into a proximal handle member 122. The needle housing member 114 is designed to allow a clinician to quickly and seamlessly remove the needle 116 after an aspirating sample is taken at a site of lesion or abnormality.

The needle housing member 114 includes a needle 116, a hub 118, and a strain relief 120. Due to the varying requirements of endoscopic ultrasound procedures, the needle 116 may be designed to range in length from fifty centimeters to two-hundred and fifty centimeters. Additionally, the needle 116 may be beveled via a single or double bevel at its distal end to aid a clinician in penetrating tissue in preparation of collecting an aspirated sample. It is contemplated that the needle 116 can be manufactured from several metallic based materials, such as stainless steel or alloys thereof and nitinol or alloys thereof. Alternatively, the needle 116 may be manufactured from polymeric materials including, but not limited to, polyetherkeytone, polyamide, polyethersulfone, polyurethane, ether block amide copolymers, polyacetal, polytetrafluoroethylene and derivatives thereof. Moreover, a combination of metallic based and polymeric materials may be suitable for this purpose. It is contemplated that one skilled in the art will realized that other materials suitable for manufacture in accordance with the present disclosure will also be appropriate.

The needle 116 requires a secure bond to the needle housing member 114. In one embodiment, the needle is attached to the needle housing member 114 via adhesive bonding. Although adhesive bonding is suitable for this purpose, an alternative and preferred method, such as direct injection over-molding can be utilized.

The method of over-molding consists of a two step molding operation with two constituent components. First, an inner component (not shown in the Figure) consists of a rigid polymer. The purpose of the inner component is to provide the primary bond between the hub 118 and the needle 116. It is contemplated that the inner component has shore hardness in the range of forty to eighty five Shore Durometer D. However, shore hardness in the range of seventy to eighty-five Shore Durometer D is generally preferable. It is contemplated that the shore hardness may include a scale of Shore Durometer A in addition to Shore Durometer D.

Second, the needle housing member 114 includes an outer component which consists of a strain relief 120. A common issue associated with prior art references is the kinking and deformation of needles during insertion and removal from a device. The strain relief 120 is designed to address the issue by providing a smooth transition and bend radius for the needle housing member 114 upon insertion and removal from the proximal handle member 112. The strain relief 120 is comprised of a relatively soft polymer, having shore hardness in the range of ten to fifty-five durometer. It is contemplated, however, that shore hardness in the range of thirty to forty-five durometer is preferable.

Referring to FIG. 14, an alternative embodiment of the needle housing member 124 is shown. In the present configuration, the needle housing member 124 is loaded into an opening at the proximal portion of a proximal handle member 126. To limit the need for a clinician to remove their hand from the device, the needle housing member 124 provides connecting details 128 that are immediately proximal to a strain relief 130 to facilitate insertion and removal of the needle housing member 124. More specifically, the connecting details 128 provides a means for rapid connection and disengagement of the needle housing member 124 relative to the proximal handle member 126. Upon inserting the needle housing member 124 into the proximal handle member 126, female connecting details 130 engage male connecting details 132 housed on the proximal handle member 126. The engagement of the female connecting details 130 and the male connecting details 132 provides the needle housing member 124 with a secure lock in the axial direction. This lock ensures that the needle subassembly can not move or deform while is use.

The present configuration is designed to allow a clinician to easily disengage the needle housing member 124 from the proximal handle member 126. For example, once the clinician has acquired the desired tissue or fluid sample through needle aspiration, they may apply force in a substantially traverse direction to the needle housing member 124. The needle housing member 124 may be subsequently retracted for disposing the sample contained upon the needle. As a result, it is envisioned that a clinician can seamlessly acquire and insert another needle housing member 124 without reconfiguring the positions of the proximal handle member 126.

Referring to FIGS. 15 and 16, it is contemplated that a spring loaded mechanism may be provided to facilitate the removal of a needle housing member 134 from a device 136. In the present configuration, a release member 138 is provided which functions in concert with a lever 140. The lever 140 operates under a spring loaded tension 142 to securely fasten the needle housing member 134 to the device 136. The lever 140 is operated by depressing the release member 138. Upon depressing the release member 138, the tension released by a spring 142 causes the lever 140 to release the needle housing member 134 from the device 136.

Turning to FIG. 17, a sheath lumen 144 is provided to house the needle 22 from the proximal handle member 14 through the distal handle member 16, as shown in FIG. 1. The sheath lumen 144 is comprised of, but not limited to, thermoplastic materials. It is contemplated that the thermoplastic materials may be polyurethane, polyamide and derivatives thereof, ether block amide copolymers, polyimide, placental, polyethylene and derivates thereof, polytetrafluoroethyelene, and the like. In a preferred embodiment, the sheath lumen 144 is comprised of a helically braided configuration 146 of outer thermoplastic materials with a lubricious inner core 148.

The inner core 148 may be made from polytetrafluoroethyelene, fluorinated ethylene propylene, or derivatives thereof, to provide a lubricous surface for the needle 22, as shown in FIG. 1, as it is passed through the sheath lumen 144. It is contemplated that the sheath lumen 144 may have an outer diameter ranging from three French to twelve French. It is further contemplated that the sheath lumen 144 may have an inner diameter ranging from two French to ten French. In a preferred embodiment, the inner and outer diameter of the sheath 144 is between three French and six French.

Referring to FIG. 18, a taper 152 on the distal end of a needle 150 may be provided to provide a level of interference between a sheath 154 and the needle 150 during needle advancement. The taper 152 addresses the issue of needle instability by providing an enlarged portion that provides a frictional resistance in the form of a drag force. It is envisioned that the taper 152 may be incorporated onto the needle 150 through centerless grinding or cold-drawing techniques.

Referring to FIG. 19, an alternative embodiment is presented wherein a needle 156 comprises stabilizing bulbs 158 located at constant increments over the length of the needle 156. These bulbs 158 may be spaced anywhere from two millimeters to one centimeter apart and may be located over the entire length of the needle 156 or over a portion of the needle 156. It is contemplated that the bulbs 158 may be circular or elliptical in geometry and may be incorporated onto the needle 156 via soldering or laser welding or incorporating into the grind profile of the needle 156. It is further contemplated that the stabilizing bulbs 158 will provide sufficient frictional resistance between the needle 156 and a sheath 160.

Referring to FIG. 20, another embodiment is contemplated wherein a series of barbs 162 are located at varying intervals along the length of a needle 164. The purpose of the barbs 162 is to reduce the effective clearance between the outer diameter of the needle 164 and the inner diameter of a sheath 166. It is contemplated that the barbs 162 may be positioned at the distal end of the needle 164 or alternately, may be spaced over the entire length of the needle 164.

It is contemplated that all forms of protrusions, including the “taper”, “bulb” or “barb” details, extend into the sheath 166 when the needle 164 is fully extended relative to the sheath 166. This ensures that at maximum needle insertion depth, the needle 164 is kept stable in the assembly and achieves the desired design intent.

Referring to FIG. 21, a clinician may yield the benefit of improving the echogenicity and ultrasonic visibility of a needle 168 during endoscopic ultrasound, by enhancing the definition of the needle 168 and the ability to discern needle 168 during the procedure. It is contemplated that the needle 168 can be surrounded by echogenic materials such as a polymer impregnated with sonically reflective particles to provide ultrasonic visibility. It is further contemplated that ultrasonic visibility may be, but is not limited to, x-rays, ultrasounds, sonography, etc. It is envisioned that the polymer may be, but is not limited to, a thermoplastic or thermoset coating. It is further contemplated that the echogenic properties of the needle 168 may be enhanced through techniques such as sandblasting, laser etching, surface roughening, the introduction of various patterned geometries onto the surface of the needle, etc.

In the present configuration, an alternative configured is contemplated wherein a polymeric sleeve or jacket 170 covers the proximal portion of the needle 160, which extends distally from a sheath 172 back to a hub on a housing member 174. The purpose of the sheath 172 is to act as a “buffer-layer” between the outer diameter of the needle 168 and the inner diameter of the sheath 172. In this way, the advancement of smaller diameter needles are stabilized as a result of frictional resistance between the needle 168 and the sheath 172. The material used for the needle jacket 170 is preferably extruded from a thermoplastic material such as polyurethane, polyethylene, polypropylene or copolymers thereof, polyamide, polyimide, and polyether block amide or copolymers thereof. Alternately and more preferably, the jacket 170 may be extruded from a highly lubricious material such as polytetrafluoroethylene or fluorinated ethylene-propylene. It is contemplated that by utilizing low co-efficient of friction materials on the outer wall of the needle 168, the frictional drag or insertion force required to insert the needle 168 through the sheath 172 to the desired anatomical location for aspiration is minimized.

In the present configuration, the polymeric jacket or sleeve 170 is located to commence at the needle housing member 174 and run the entire length of the needle 168 to a specified location. This method ensures that the distal portion of the needle 168, which extends from the sheath 172, is bare and the polymeric jacket 170 does not interfere with passage of the needle 168 through the clinical anatomical mass under evaluation. The jacket 170 may be captured at the proximal end during insert molding of the needle housing member 174 or alternately may abut the needle housing member 174.

The incorporation of such a polymeric jacket 170 to encase the proximal portion of the needle 168 also serves to provide the clinician with passive feedback during removal of the needle 168 from the proximal handle housing. During removal of the needle 168 from the device once the sample has been acquired, it is important that the clinician be made aware of when they are approaching the sharp end of the needle 168. With the polymeric jacket 170 being positioned at a constant distance from the sharp bevel of the needle 168, once the clinician observes the end of the polymeric jacket 170 on the needle 168, they are passively made aware that a sharp bevel 176 is located at a specified distance from the end of the polymeric jacket 170. This passive feedback is important as the clinician can now exercise additional caution to ensure that they do not inadvertently pierce themselves with the needle 168 or cause the needle 168 to become entangled, endangering the diagnosing value of the collected sample.

It is contemplated that these concepts pertain to the maintenance of stability during needle advancement, particularly in the case of a needle 168 with 22 or 25 AWG, wherein the gap between outer diameter of the needle 168 and inner diameter of the sheath 172 is more appreciable. It is desirable to also incorporate the jacket type arrangement into the design for the 19 AWG needle portion. With a reduced amount of concentric clearance available between inner diameter of the sheath 172 and the outer diameter of the needle 168 in the case of a 19 AWG needle 168, the polymer jacket 170 may take the form of polytetrafluoroethylene or other thermoplastic material heat shrink which is thermally laminated onto the outer diameter of the needle 168. Alternately, it is further contemplated that a 19 AWG needle 168 may be spray coated with a lubricious material such as teflon. At the distal end of the needle 168, the heat shrink material or coated material may terminate at specific distance from the sharp end of the needle 168. It is envisioned that this method will provide the clinician with feedback as to when they are approaching the sharp bevel at the distal end during extraction of the needle 168.

It will be understood that various modifications may be made to the embodiments disclosed herein. Therefore, the above description should not be construed as limiting, but merely as exemplifications of the various embodiments of the invention. Those skilled in the art will envision other modifications within the scope and spirit of the claims appended hereto.

Murphy, Brian, McWeeney, John O., Mugan, John

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